Device for impeding a route of travel of crawling arthropods

ABSTRACT

A barrier implement intended for obstructing a route of travel of crawling arthropods along a passageway comprises a sheet configured to circumscribe a passageway along which arthropods crawl. A dimension of the sheet is sized or molded relative to said passageway. An arthropod deterring component associated with said sheet for deterring said crawling arthropods and impeding their route of travel along said passageway. 
     In a method of impeding a route of travel of crawling arthropods from moving along a passageway from a location A to a location B, an arthropod deterring component is associated with a sheet. The sheet separates location A from location B and creates a vermin-impervious barrier therebetween. A route of travel of crawling arthropods from moving from location A to location B is impeded.

This application claims priority from U.S. Provisional Application Ser.No. 60/181,395, filed Feb. 9, 2000.

BACKGROUND OF THE INVENTION

The present invention is directed to the art of pest control, and moreparticularly to the art of barriers for impeding route of travel ofcrawling arthropods at point source, point of entry. It serves as anovel technology in integrated pest management (IPM). The invention isparticularly applicable to barriers for interrupting a route of travelof crawling arthropods along passageways that lead to partially enclosedor partially exposed spaces, and may be advantageously employed in theseand other environments.

Ants and other crawling arthropods pose a problem to electrical orlighting wall work boxes, pipe flanges, fluid dispensing and intakepassageways, enclosed utility boxes, heating, ventilating and airconditioning ports, and other enclosed or partially enclosed viasaccessible to the pests. They are also undesirable in living areas, andare known to crawl up support structures to reach beds, table tops,racks and the like.

In agricultural areas where irrigation is used, ants tend to make theirway into the tiny microjets that extend from the water feed line. Theants bring sand, dirt, food and other substances with them as they enterthe jets. They also leave fecal matter. The fine microjets becomeclogged, and the flow of water therefrom becomes interrupted such thatirrigation is interrupted. The jets must then be cleaned out or replacedon a frequent basis.

In another example, crawling insects that are inside walls or utilitypassageways often invade interior spaces, such as residential livingareas or commercial rooms, by entering through utility wall plates. Thisis particularly the case in warmer climates or nesting areas in allclimates. It is not uncommon for ants to enter into a room via theopenings for receptacles and switching outlet components or electricalsockets. Also, if there is a gap between the wall and wall plate, theants can foreseeably crawl through the gap into the room. They can alsocrawl into a room through openings defined by plates for cable wires,light switches, blank plates, and the like.

Pipe flanges and other articles that cover openings in walls provideanother area where arthropods find access into a room or into a wall.The arthropods or ants crawl behind the flanges or plates, through pipecracks or through pipe openings covered by flanges, or gaps between thewall and plumbing pipes.

Arthropods pose a serious problem for the microjets and otherpassageways, vias or enclosed or partially enclosed spaces attractive tosuch crawling insects. They clog passageways and spread diseases. Theyare considered a health hazard. Certain insects, such as red fire antsand Argentine ants, tend to sting humans, some to such a great extent tocause grave injury or even death. It is desirable to find a solution oran answer to these critical needs and to develop a way to prevent thearthropods from entering and clogging microjets and other vias. It isfurther desirable to develop a procedure for eliminating or dramaticallyreducing the passageway of the crawling arthropods into residential aswell as non-residential spaces. Finally, it is desirable to develop animplement and method to obstruct a route of travel of crawlingarthropods along an exposed, enclosed, or partially enclosed passageway.

The present invention provides for a novel barrier implement and methodfor obstructing a route of travel of crawling arthropods that is safe,economical, and durable and provides a solution to the critical needs inintegrated pest management.

SUMMARY OF THE INVENTION

In accordance with the present invention, there is provided a barrierfor separating ants and other crawling arthropods and vermin from apoint or area where they are undesired. A method for impeding a route oftravel of crawling arthropods is also provided.

A barrier implement intended for obstructing a route of travel ofcrawling arthropods along a passageway comprises a sheet materialadapted to circumscribe the passageway along which arthropods crawl. Adimension of the sheet is sized relative to the passageway. An arthropoddeterring component is associated with the sheet material to detercrawling arthropods and impede their route of travel along thepassageway.

A method of impeding a route of travel of crawling arthropods from alocation A to a location B along a passageway is also provided. A sheetis positioned between the two locations. An arthropod deterringcomponent is associated with the sheet. The sheet circumscribes thepassageway, and a dimension of the sheet is sized relative to saidpassageway. An arthropod impervious barrier is created between locationA and location B to impede a route of travel of crawling arthropods frommoving from location A to location B is impeded.

A principal advantage of the present invention is that the barrierimplement can be retrofit to existing standard equipment. It provides aneconomical solution to a widespread insect problem.

Another advantage of the present invention is that it falls within therecent mandate to reduce the broadcasting of pesticide chemicals.

Another advantage of the present invention is that the barrier deviceserves a dual purpose. It deters a route of travel of crawlingarthropods. It also reduces or eliminates the infiltration of air ordrafts that flows through electrical boxes, wall plates, pipe flangesand the like.

Yet another advantage of the invention is found in its duration. Theimplement can be applied and kept in place for up to several years.After the barrier implement loses its effectiveness, a new barrierimplement can be readily installed to replace the old.

Still other advantages and benefits of the invention will becomeapparent to those skilled in the art upon a reading and understanding ofthe following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention may take physical form in certain parts and arrangementsof parts, a preferred embodiment of which will be described in detail inthis specification and illustrated in the accompanying drawings whichform a part hereof.

FIG. 1A discloses a barrier implement installed about an elongatedstructure in an irrigation microjet environment;

FIG. 1B provides a detailed perspective view of the barrier implement ofFIG. 1A in the irrigation microjet environment;

FIG. 2 shows a barrier implement adapted for installation behind autility wall receptacle, namely, an outlet wall plate;

FIG. 3 shows a barrier adapted for installation behind a switch plate;

FIG. 4 shows a barrier implemented for use in association with a flange;

FIG. 5A sets forth an exploded view of a barrier implement situated inan environment that includes a caster and a coaster disk; and

FIG. 5B displays an assembled view of a caster, furniture leg and acoaster disk which holds the barrier implement in place and alsoprovides a shield for the barrier.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to the drawings where the showings are made for thepurpose of illustration only and are not for the purpose of limitingsame, the Figures set forth examples of environments in which a barrierimplement for impeding a route of travel of crawling arthropods isuseful. The implement is useful in connection with blocking progressionof arthropods crawling along passageways, whether the passageways beelongated or abbreviated in length, enclosed or exposed. The implementis designed to surround or circumscribe a given passageway such that itobstructs the crawling arthropod from proceeding between a location Aand a location B along said passageway. These two locations generallycomprise areas on either side of an installed barrier implement.

The barrier implement is comprised of any impregnable material or anymaterial to which an arthropod deterring constituent could besuperficially applied or impregnated. In a preferred embodiment, thesheet is comprised of a pliable polymer material into which an arthropoddeterring component can be molded. But the material need not necessarilybe pliable. The barrier implement can also be composed of a stiff orrigid material. The implement can be molded to be a circular,rectangular or any other shape disk, or it can be molded to virtuallyany configuration to fit or conform and adapt to any virtually surfaceorientation. For example, the disk can be shaped as a circle, square,angular, rectangular, as a wafer, a flap, gasket, washer, sheet, plate,shelf, leaf, thimble, coat, grommet, foil, membrane or virtually anyconfiguration. It can be flat, concave, convex or embossed. It can bemolded or extruded to fit any surface or embodiment to causeinterruption of arthropod travel from point to point. Its purpose is tointerrupt a route of crawling arthropod travel. It employs point sourcetechnology in that it stops or deters crawling arthropods at the sourceof the problem. It also responds to critical needs in integrated pestmanagement.

An active ingredient in the nature of an arthropod deterring componentis associated with the barrier material. The component can be moldeddirectly in the barrier material, or it can be applied to the surface bypainting it on or by inserting or installing a cartridge thereon.Preferably, the component is a pesticide such as permetherin which canbe molded directly in the sheet. Another pesticide or other type ofarthropod deterring constituent, which may or may not comprise apesticide, is contained in, applied to or molded directly in the barriermaterial composition. In some instances, a slippery substance, such aspolytetraflurorethylene (Teflon) coating or petroleum jelly applied tothe barrier material, will suffice to deter the crawling arthropods fromproceeding along the passageway. The barrier serves the purpose ofacting as a shield or barrier to prevent the ingress of arthropods intoports or enclosed or semi-enclosed spaces where pests are not desired,or even past certain points on flat or elongated structures.

An example of an environment where the barrier implement is useful isprovided in FIGS. 1A and 1B. Here, the barrier implement provides adeterring effect along an elongated passageway, in this particular casean external surface of a microjet capillary. An irrigation water line 10travels along the ground 14. The water line is shown broken away toindicate that it extends linearly in both directions. A thin diametermicrojet capillary or flex tube 18 branches off the water line and issupported in a generally upward position by a stake 22 that is stationedin the ground. An upper end 24 of the stake is designed to hold orsupport the flex tube 18 in place. A microjet assembly 26 is in place atthe distal end of the capillary or flex tube 18. Water flows from waterline 10 through capillary 18 and out through an opening 28 defined in ahead portion 30 of the assembly. It is to be understood that themicrojet assembly exemplified in FIGS. 1A and 1B includes a threadedtube which extends downward from the head, through hex nut 32. Thethreaded tube is received within an internally threaded end 34 ofcapillary 18.

The removable nature of the microjet assembly enables the installationof a barrier implement 36. The barrier itself comprises a disk shapedsheet that is fashioned to enable an elongated or other type object passtherethrough. Here, the sheet is provided in a circular configuration,though virtually any configuration will suffice. The thickness of thesheet should be such that it can be accommodated in the environment. Thesheet disclosed in FIGS. 1A and 1B is less than approximately {fraction(1/16)}″ in thickness, but this is not intended to be a limitingdimension. The sheet thickness is preferably substantially even, but isnot required to be even.

An opening 40 defined in the sheet is adapted to circumscribe anelongated or other structure therethrough. Here, the opening is sized toaccommodate the capillary tube 18. The barrier disk is held in place onthe tube by passing threads from the microjet assembly through it andsecuring it in place by joining the assembly to the capillary andholding it in palace by the pressure of the hex nut.

An arthropod deterring component is associated with the disk. The diskand arthropod deterring component together act as a barrier and adeterrent to prevent the crawling arthropods from passing through to thetiny microjet openings. As the arthropods crawl upward along the supportmember or the tube, they approach the disk. The arthropod deterringcomponent associated with the disk deters them from continuing alongtheir path.

FIG. 1B shows A detailed view of the microjet assembly. Ants or otherarthropods are known to crawl into the microjet opening 28 when the jetsare not in use. Microjets are typically used minimally, often only onceper day, in order to conserve water. When the jets are not in use, theants crawl in through the opening to seek out moisture, particularly indry and arid situations. They bring sand, dirt, and food with them. Thisclogs the microjets, which then significantly disrupts the irrigationflow.

Ants and other crawling arthropods are prevented or deterred fromentering the microjets by placing a disk 36 that embodies an arthropoddeterring agent around the threads of the microjet, just below theopening 28. The disk extends to overhang the width of the capillary andis shown to rest on the top 24 of the stake 22. Ants that would have tocrawl up the stake or flex tube to reach the microjet opening or port 28are deterred by the arthropod deterring agent embodied in the disk. Theymust encounter the disk before they can proceed to the opening.

Another example of an environment in which the vermin deterringcomponent can be used is shown in FIG. 2. It is understood that theutility wall plate environment of FIG. 2 includes a wall plate 42,electrical socket 44, socket box 46 and barrier implement 48. As istraditional, the socket box is mounted inside a wall and is situated tohold an electrical socket in place therein. It is understood that theoutlets 49 are exposed outside the wall via openings 50 within the wallplate. Barrier sheet 48 is configured to fit within an underside of thewall plate. When installed, it is sandwiched, at least about or near itsperiphery, between the wall plate and a wall. The barrier sheet isconfigured to define openings 52 therein for receiving or exposingelectrical sockets therethrough. The sockets are exposed through thebarrier implement and the wall plate 42.

Barrier implement shown in FIG. 2 also acts as an insulator while itkeeps arthropod infestation down. As will be noted, sheet 48 is designedto fit inside a utility wall plate 42 to obstruct a route of travel ofcrawling arthropods. In many climates, there is a problem in thatcrawling arthropods tend to invade a room by entering through an openingmade by a utility wall plate 42. The sheet defines openings 52 thatcorrespond to openings 50 in the wall plate 42 which are adapted toreceive an electrical socket therethrough.

Arthropods can also escape into a room through any gaps that are formedbetween a wall plate and a wall. The barrier implement is designed toprevent the escape of ants or other arthropods through such gaps.

The sheet itself is configured to correspond to the size and shape ofthe wall plate. Generally, two opposing sides of the wall plate sheetare substantially equal in size. The sheet can be configured to agree tothe shape and purpose of the wall plate. For example, the wall plateshown in FIG. 2 is designed to cover a double electrical outlet. Ifthere were two additional outlets under the plate, then the sheet wouldbe designed to include those added outlets by including two additionalholes.

A similar situation is identified in FIG. 3 where a light switch 54 isshown. It is understood that this environment includes a switchplate 55,the switch 54, socket box 56 and barrier implement 58. The socket box 56is recessed inside a wall and is adapted to hold the switch therein. Itis understood that the toggle switch 57 is exposed outside the wall viaopening 53 in the switchplate. The barrier implement 58 is configured tofit within an underside of the switchplate and, during installation, isat least sandwiched between the switchplate and the wall. A periphery ofthe barrier 58 and portions inward therefrom is mounted flush to a wall.Opening 59 is defined in the switchplate barrier 58 to receive or exposethe toggle switch 57 therethrough.

The barrier implement can be configured to virtually any shape or size.Another example of a useful barrier is shown in FIG. 4. A barrierimplement 60 is adapted to fit between a flange 62 and wall 64. By wayof example, a pipe 66 is shown as extending outward from said wall.Crawling arthropods that seek to enter a room by any gaps left by aninstalled pipe or conduit or the like are impeded by placement of thering-shaped disk 60 behind the flange 62. Gaps are often left between anopening in a wall 68 and a pipe or conduit. The disk is a sheet ofmaterial impregnated with an arthropod deterring component to interrupta route of travel of the crawling arthropods from within a wall orbehind a wall into a room.

Barrier implements can be configured to correspond to other types offlanges including those from conduit, cable, dryer units and the like.

The barrier of FIGS. 2, 3 and 4 serves an added benefit in that itreduces or eliminates drafts or air flow through openings in walls whichare not adequately, insulated by pipes or flanges. After a time, thebarrier implement can be recharged with a deterring component, or it canbe easily discarded and replaced.

Another useful environment for the barrier implement is shown in FIGS.5A and 5B. Here, a leg 70 supported by a caster 72 is shown. A coasterdisk 74 defines an opening 75 for receipt of the leg therethrough. Theleg can be for furniture or movable storage racks and all unitssupported by casters, where crawling insects are a problem. Theseinclude racks used in health care, food storage, laboratories or anyother rolling structure supported by casters. Caster joining components76 are received through opening 75 to position the coaster in place. Thecoaster acts as a receptacle for a barrier implement 78 which isclinglingly or otherwise mounted into the coaster. The barrier implementdefines an opening that matches the coaster opening 75. The coasterprovides a shielding function for the barrier so that when it is inplace the barrier is not in plain view of persons and is not easilytouched by persons. It is foreseeable that the barrier device could beinstalled on a leg without the need for a coaster. The coaster providesone example of a shield for a barrier device. In this instance, theshield includes a barrier wall 80 with a rim 84. It is to be understoodthat the rim could be angled outwardly or flared, as shown, orperpendicular to the barrier wall 80. It is further understood that areturn can be present at a bottom of the rim to minimize a gap betweenthe caster and the coaster. The shield is composed of an inert material.The barrier shown in FIGS. 5A and 5B serves to prevent arthropods fromcrawling along a passageway formed from furniture legs and casters.

This invention is not limited to the sheets disk shown in the Figures.Nor is it limited to the microjet, the wall plates, the flanges, or thefurniture/caster environments shown in the figures. The situation shownin the figures is merely by way of example. The device of the presentinvention is fully adaptable to virtually any enclosed or partiallyenclosed area where it is desirable to eliminate ants, roaches and othercrawling arthropods by stopping their route of travel from point topoint. Examples of where the barrier device of the present invention canbe used include irrigation systems, electrical systems, heating and airconditioning systems, agricultural equipment, table or cart on legs,adjacent casters (indoors or outdoors), or any other situation wherecrawling pests pose a problem. The list is non-inclusive and is intendedto include adaptability of the device to virtually any environment inany configuration to aid in the stopping of travel of arthropods frompoint to point.

The barrier can likewise be used with virtually any fluid dispensing orintake apparatus, any conduit, any enclosed or semi enclosed area wherearthropods are not desired. Examples include, but are not limited to,use in utility boxes, junction boxes, at the end of hoses, electricalconduits inside tubes, outside tubes, at HVAC ports, or virtuallyanywhere that arthropods may crawl. The barrier device can be ofvirtually any configuration, and is molded to conform to the shape ofthe object to which it will be attached. It acts as a barrier, anexclusion device, a destruction device, blockade, impediment, orpartition. It stops, kills or inhibits the route of travel from point topoint of crawling arthropods. The device shields an enclosed orpartially enclosed space from the crawling vermin. The vermin areprevented from crawling along the passageway from location A, which isdefined as their source or the portion of passageway that leads from thesource, to location B, which is defined as the area where arthropods areundesired or a portion of passageway which leads to that area.

The barrier is readily removable and can be replaced with another if thearthropod deterring constituent or active ingredient should becomeineffective or depleted. In the alternative, it can have a protectivecover or shield to protect against dermal contact.

The invention has been described with reference to the preferredembodiment. Obviously modifications and alterations will occur to othersupon a reading and understanding of this specification. It is intendedto include all such modifications and alterations insofar as they comewithin the scope of the appended claims or the equivalent thereof.

1. A barrier implement intended for obstructing a route of travel ofcrawling arthropods along a passageway, comprising: a solid sheet havinga sized portion; a utility wall plate abutting a wall and covering apassageway through the wall, wherein the sized portion of the sheet isadjacent to the utility wall plate to circumscribe the passageway; and aseparate arthropod deterring component substance associated with saidsheet for deterring crawling arthropods and impeding their route oftravel along said passageway, the arthropod deterring component includesa pesticide, wherein said sheet further eliminates air from passingthrough the passageway that is covered by the sheet.
 2. The barrierimplement of claim 1 wherein the sheet is molded.
 3. The barrierimplement of claim 1 wherein the sheet is extruded.
 4. The barrierimplement of claim 1 wherein the sheet is pliable.
 5. The barrierimplement of claim 1 wherein the sheet is stiff.
 6. The barrierimplement of claim 1 wherein the sheet comprises an arthropod deterringcomponent substance molded directly therein.
 7. The barrier implement ofclaim 1 wherein the sheet comprises an arthropod deterring componentsubstance applied therein.
 8. The barrier implement of claim 1 whereinthe sheet is configured to circumscribe a passageway defined by a spacebetween the utility wall plate and the wall to which it abuts.
 9. Abarrier implement intended for obstructing a route of travel of crawlingarthropods along a passageway in a wall, comprising in combination: asolid sheet having a sized portion; a wall having a passageway throughthe wall along which arthropods crawl, the sized portion of the sheetbeing placed across a portion of the passageway for covering the portionof the passageway; a separate arthropod deterring component substanceassociated with said sheet for deterring said crawling arthropods andimpeding their route of travel along said passageway in the wall, theseparate arthropod deterring component includes a pesticide, whereinsaid sheet further eliminates air from passing through the passageway inthe wall that is covered by the sheet.
 10. The barrier implement ofclaim 9, further comprising: a utility plate for covering the passagewayin the wall, the sheet placed adjacent to one side of the utility plate.11. A barrier implement intended for obstructing a route of travel ofcrawling arthropods along a passageway about a pipe, comprising: a sheethaving an O shape being placed about a pipe being configured tocircumscribe block a passageway along which arthropods crawl; and anarthropod deterring component associated with said sheet for deterringcrawling arthropods and impeding their route of travel along saidpassageway about the pipe.
 12. The barrier implement of claim 11 whereinthe sheet fits behind a flange about the pipe.
 13. The barrier implementof claim 12, wherein the pipe passes through a wall, and the passagewayis about the pipe within the wall.
 14. A barrier implement intended forobstructing a route of travel of crawling arthropods along a passageway,comprising: a solid sheet having a sized portion; a utility wall plateabutting a wall and covering a passageway through the wall, wherein thesized portion of the sheet is adjacent to the utility wall plate tocircumscribe the passageway; and a separate arthropod deterringcomponent substance associated with said sheet for deterring crawlingarthropods and impeding their route of travel along said passageway,wherein said sheet further eliminates air from passing through thepassageway that is covered by the sheet, wherein the sheet is configuredto circumscribe a passageway defined by a space between the utility wallplate and the wall to which it abuts.
 15. A barrier implement intendedfor obstructing a route of travel of crawling arthropods along apassageway, comprising: a solid sheet having a sized portion; a utilitywall plate abutting a wall and covering a passageway through the wall,wherein the sized portion of the sheet is adjacent to the utility wallplate to circumscribe the passageway; and a separate arthropod deterringcomponent substance associated with said sheet for deterring crawlingarthropods and impeding their route of travel along said passageway, thearthropod deterring component includes a slippery substance, whereinsaid sheet further eliminates air from passing through the passagewaythat is covered by the sheet.
 16. A barrier implement intended forobstructing a route of travel of crawling arthropods along a passagewayin a wall, comprising in combination: a solid sheet having a sizedportion; a wall having a passageway through the wall along whicharthropods crawl, the sized portion of the sheet being placed across aportion of the passageway for covering the portion of the passageway; aseparate arthropod deterring component substance associated with saidsheet for deterring said crawling arthropods and impeding their route oftravel along said passageway in the wall, the separate arthropoddeterring component includes a slippery substance, wherein said sheetfurther eliminates air from passing through the passageway in the wallthat is covered by the sheet.